Compound archery bow

ABSTRACT

An archery bow string is secured intermediate its ends to eccentrically pivoted cams mounted at the outer ends of the limbs of a bow. An adjustable control cable operatively interconnects each limb, inwardly of the associated cam, and a lever mounted pivotally on the bow inwardly of said limb connection. The terminal end of each end segment of the bow string is secured to the lever associated with the opposite limb, outwardly of the control cable connection to said lever, in order to balance a maximum pull weight which remains constant throughout a predetermined intermediate portion of the draw length. Adjustment of the length of the control cables effects adjustment of the tension and flexure of the limbs, pull weight of the bow string, angular position of the cams. A coupling member is used to connect a working stretch portion of a bow string with its end segments.

United States Patent 11 1 Hunter 1 Oct. 15, 1974 COMPOUND ARCHERY BOW [75] Inventor: Lafayette D. Hunter, Lowell, Oreg.

[73] Assignee: Donald S. Kudlacek, Longview,

Wash.

22 Filed: Aug. 20, 1973 21 App]. No.: 390,106

[52] 11.8. C1. 124/24 R, 124/30 A, 124/30 R [51] Int. Cl. F41b 5/00 [58] Field of Search.... 124/24 R, 23 R, 30 A, 30 B, 124/30 R [56] References Cited UNITED STATES PATENTS 3,595,213 7/1971 Storer 124/30 A 3,744,473 7/1973 Nishioka 124/24 R Primary ExaminerRichard C. Pinkham Assistant Examiner-William R. Browne Attorney, Agent, or FirmOliver D. Olson [57] ABSTKACT An archery bow string is secured intermediate its ends to eccentrically pivoted cams mounted at the outer ends of the limbs of a bow. An adjustable control cable operatively interconnects each limb, inwardly of the associated cam, and a lever mounted pivotally on the bow inwardly of said limb connection. The terminal end of each end segment of the bow string is secured to the lever associated with the opposite limb,

outwardly of the control cable connection to said lever, in order to balance a maximum pull weight which remains constant throughout a predetermined intermediate portion of the draw length. Adjustment of the length of the control cables effects adjustment of the tension and flexure of the limbs, pull weight of the bow string, angular position of the cams. A coupling member is used to connect a working stretch portion of a bow string with its end segments.

10 Drawing Figures PAIENHU 1 533"; 3,841 .295

saw 20? 2 4 80 -11 "III 72 i A.

LBS. I 20 PULL l INCHES DRAW F1 9. 10.

1 COMPOUND ARCHERY BOW I BACKGROUND OF THE INVENTION This invention relates to archery bows, and more particularlyto an archery bow characterized by requiring lesser pull weight at full draw than at an intermediate I end of the bow in FIG. 1.

limb angle and bow string pull weight. This imposes serious limitations upon the precision of balancing of the limbs and adjustability of the components of the bow. For example, it-imposes the impracticable requirement of providing both limbs with identical characteristics of flexure and tensile strength, for otherwise the nocking point moves up and down during draw and release of an arrow, resulting in erratic arrow flight and inaccurate shooting. It also limits the degree of adjustability of the position of a nocking point relative to an arrow rest, and the angular disposition of the eccentrics and hence the characteristic pull weight relative to draw range.

Another limitation imposed upon the structure of prior compound bows resides in the interference with arrow movement by the close proximity of the crossing end segments of the'bow string.

The foregoing and other limitations presented by prior compound bow constructions adversely affect the flight characteristics of an arrow and the degree of shooting accuracy attainable with such bows.

SUMMARY OF THE INVENTION In its basic concept, the compound bow of this invention involves the adjustable connection of each cam at the opposite ends of the bow to an intermediate point on the opposite limb through a lever pivoted to the bow.

It is by virtue of the foregoing basic concept that the principal objective of this invention is achieved; namely, to overcome the aforementioned disadvantages and limitations of prior compound bows.

Another important object of this invention is the provision of a compound bow of the class described which affords a substantial degree of adjustability of the tensioning of a working stretch portion of a bow string the tensioning of the limbs and the characteristic pull weight relative to a portion of the draw range.

A further objective of this invention is the provision of a compound bow of the class described in which no interference is presented to the movement of the arrow.

The foregoing and other objects and advantages of this invention will appear from the following detailed description, taken in connection with the accompanying drawings of preferred embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view in side elevation of a compound archery bow embodying the features of this invention.

FIG. 6 is a fragmentary view in side elevation and on an enlarged scale of the lower limb connector and tension control assembly of FIG. 1, parts being broken away to disclose details of internal construction.

FIG. 7 is a fragmentary sectional view taken on the line 77 in FIG. 6.

FIG. 8 is a fragmentary sectional view taken on the line 88 in FIG. 6. p

FIG. 9 is a fragmentary plan view as viewed in the direction of the arrows in 9-9 in FIG. 6.

FIG. 10 is a graphical representation of pull weight relative to range of draw, characterizing the bow construction illustrated in FIG. 1.

DESCRIPTION OF THE PREFERRED EMBODIMENTS The bow includes a central handle member 10, preferably made of light weight metaLAs illustrated, it is provided with an arrow rest 12 mounted thereon above the hand grip 14.

A pair of resilient limbs 16 and 18 extend outwardly one from each of the opposite ends of the handle member. Although the limbs may be formed integral with the handle, the detachable and adjustable arrangement illustrated is preferred. Thus, referring particuarly to FIGS. 6, 7 and 8, the inner end of the limb 18 is connected to the outer end of the handle by means of a pair of spaced pivot shafts 20 and 22 mounted in transverse bores in the handle. Intermediate portions of the handle registering with the bores are cut away, forming notches 24 and 26, to accommodate the the inner ends of elongated screws 28 and 30 which extend removably through internally threaded diametric bores in the shafts. The screws also extend removably through openings provided in the limb. Washers 32 are interposed between the outer surface of the limb and the heads of the screws.

The terminal end portions of the handle, to opposite sides of the central notch 26, are rounded arcuately to provide bearing surfaces which engage a correspondingly arcuate socket 34 provided on the rearward surface of the limb. Thus, by rotation of the adjusting screw 28 relative to its pivot shaft 20, to move the screw longitudinally inward or outward relative to the shaft, the limb is caused to pivot about the bearing socket 34. The angle of each limb relative to the handle thus may be adjusted independently of each other.

The bow includes a string by which an arrow is projected. In the embodiment illustrated, the string includes an elongated, intermediate working stretch 36 provided with the usual nocking point 38, and a pair of opposite end segments 40 and 42 connected detachably to the opposite ends of the working stretch. The detachable connection of the adjacent ends of the working stretch and end segments preferably is provided by the coupling member illustrated in FIGS. 3 and 4. The coupling member is of unitary construction and includes an elongated body 44 provided adjacent one end with an outwardly projecting eyelet 46, or

other suitable form of connector. At the opposite end of the body a pair of lateral projections 48 extend in opposite directions relative to the longitudinal axis of the body.

The eyelet 46 is adapted for connection of the adjacent end of either the working stretch or the end segment. As illustrated, the eyelet connects the end segment as by means of a loop formed in the latter. The adjacent end of the working stretch is provided with a closed loop. It is slipped over the body 44 and retained in a notch 50 formed between the body and the eyelet. The inwardly extending portion of the loop then is crossed by 180 of rotation, and the spaced strands of the loop are lapped behind the lateral projections 48.

The coupling member illustrated affords ready attachment and detachment of the bow string sections and imposes minimum stresses on the end loop of the section that extends between the notch 50 and the lateral projections 48.

The opposite end segments 40 and 42 of the bow string are trained about a pair of cam members 52 and 54, respectively, mounted at the outer ends of the limbs 16 and 18, respectively, each by means of an eccentrically located pivot pin 56. As best shown in FIG. 2, each cam member is received freely within a central slot 58 provided at the outer end of each limb, and the pivot pin 56 is mounted at its opposite ends in apertured lugs 60 projecting outwardly from the laterally spaced finger portions of the limb which define the central slot.

In the preferred embodiment illustrated, and best .shown in FIG. 5, each cam member is in the form of a circular pulley provided with a single circumferential guide groove 62 and a diametric bore 64. The end segment 42 leading from the working stretch 36 is trained about the guide groove clockwise for about 270 and is then extended through the diametric bore in the 7 oclock direction illustrated in FIG. 5, The portion of the end segment extending through the diametric bore is secured releasable therein by means of a set screw 66 mounted in a threaded bore which extends radially from the diametric bore substantially normal thereto. The end segment leading outward from the diametric bore then is wrapped clockwise along the guide groove for substantially 90, from whence it is extended for connection to an adjustable tensioning control.

In the embodiment of FIG. 1, and best illustrated in FIGS. 6 and 9, the tensioning control includes a pair of elongated levers 68, one associated with each of the end segments of the bow string. The inner end of each lever is mounted pivotally on a shaft 70 journaled in a pair of laterally spaced support plates 72 and 74 secured to opposite side surfaces of an end of the handle 10, as by bolts 76. Forwardly projecting portions of the plates extend closely along opposite side edges of the associated limb,and thus serve to confine the latter in longitudinal alignment with the handle. A spacer sleeve 78 extends laterally between the pair of plates adjacent the shaft and serves as a reinforcement for the plates. The spacer sleeve is retained in position by an elongated bolt 80 which extends through registering openings in the plates and the sleeve.

The outer end of each lever is provided with an opening 82, or other suitable means, by which to connect the terminal end of the end segment of the bow string secured to the cam member at the opposite end of the bow. In the embodiment of FIG. 1, the end segment 42 of the bow string extending upward from the bottom cam member 54 is connected to the outer end of the lever mounted at the upper end of the handle 10, and the terminal end of the end segment 40 of the bow string extending downward from the top cam member 52 is connected to the outer end of the lever mounted at the lower end of the handle. Thus, it will be appreciated that the end segments of the bow string cross at the longitudinal center of the bow, slightly forward of the working stretch 36. In order that the crossing end segments not interfere with the manipulation and movement of an arrow, the outer ends of the levers are offset laterally (FIG. 9) from the plane of the working stretch. In this manner the crossing portions of the end segments also are offset laterally from the plane of the working stretch sufficiently to present no hindrance to the proper manipulation and movement of an arrow.

Means is provided for adjusting each of the levers 68 pivotally for adjusting the flexure, tension and timing of each limb, independently of the other. Thus, the pivot shaft for each lever is provided in the form of a rotary reel. One end of the reel is connected through a conventional reduction gear assembly in a housing 84 to a control knob 86 adapted to be rotated by hand. The reduction gear housing is secured to one of the side plates by such means as a screw.

One end of an elongated, flexible control cable 88 is secured to each rotary reel 70. The cable extends outwardly therefrom and is trained about a pulley 90 mounted on the rear surface of the associated limb, inwardly of the cam member. The cable then extends inward from the pulley and is secured at its terminal end to the associated lever 68 by means of a pin 92 mounted on the lever intermediate the ends of the latter. The control cable thus operatively interconnects the lever and the associated limb, such that rotation of the reel to take in or pay out the cable functions to increase or decrease the tension and curvature of the limb.

As the control cable 88 is taken up on, or paid out from the reel 70, the connected lever 68 is caused to rotate about the axis of the reel toward, or away from the associated pulley 90. Since the end segments 40 and 42 of the bow string connect the cam members 52 and 54, respectively, to the levers at the opposite ends of the handle 10, such movement of each lever also functions to vary the rotational position of the opposite cam member. Accordingly, rotational adjustment of each reel also serves to adjust the tension of the bow string and the longitudinal position of the nocking point 38.

The connection of the cams 52 and 54 to the opposite limbs 18 and 16, respectively, through the bow string end segments 40 and 42, levers 68, control cables 88 and pulleys 90, provides still another important function; namely, the maintenance of limb balance throughout the draw and release of an arrow. To illustrate, let it be assumed that the upper limb 16 (FIG. 1) is weaker than the lower limb 18. Thus, during the draw the upper limb tends to bend more than the lower limb, with consequent greater clockwise rotation of cam 52 than counterclockwise rotation of cam 54.

The greater rotation of cam 52 produces an upward pivotal movement of the lower lever 68 greater than the downward pivotal movement of the upper lever 68. Accordingly, the greater upward movement of lower lever 68 functions, through the connected control cable 88, to cause greater bending of the lower limb 18, to match the bending of the weaker, upper limb 16. Both limbs thus remain in balance during draw and re lease of an arrow. This is reflected in movement of the nocking point 38, and hence the arrow, along a straight line extending through the arrow rest 12.

In the operation of the archery bow illustrated in FIG. 1, as the working stretch 36 is drawn rearward from the rest position illustrated to the position of full draw, the eccentric cam member 52 at the top of the bow is caused to rotate clockwise about the axis of its pivot shaft 56 and the eccentric cam member 54 at the bottom of the bow is caused to rotate counterclockwise about the axis of its pivot shaft. These pivotal movements of the eccentric cam members operate to produce a varying pull weight which is characterized by the curve illustrated in the graph of FIG. 10.

Thus, as the draw proceeds from the rest position, the pull weight increases substantially uniformly along the line segment 94 to an intermediate position of draw indicated by the broken line 96. The pull weight then remains substantially constant through a further intermediate length of draw, as indicated by the line segment 98 extending to the broken line 100. The pull weight thereafter decreases progressively to the position of full draw, along the line segment 102.

In the illustration of FIG. 10, the intermediate extent of maximum pull weight of about 43 pounds occurs through the draw range of about 18 inches to about 23 inches, and the pull weight at maximum draw of 28 inches is about 24 pounds. Accordingly,'since the archer is required to sustain only 24 pounds of pull weight at full draw rather than the maximum of 43 pounds, he is better able to establish and maintain sighting control preliminary to shooting.

The characteristic pull weight curve illustrated in FIG. is retained substantially constant throughout the range of adjustment of limb and bow string tension. It will be understood, however, that the position of the curve varies in the vertical direction of the ordinate as the bow string tension is varied.

If desired, the position of the curve may be shifted horizontally by varying the diameter of the eccentric cam members 52 and 54. Further, the extent of maximum pull weight, i.e., the length of the line segment 98, may be varied by varying the spacing between the opening 82 and pin 92 on each lever 68. The length of the line segment 98 increases as the spacing between opening 82 and pin 92 is increased and decreases as said spacing is decreased. Similarly, but not preferably, the length 'of line segment 98 may be increased or decreased by decreasing or increasing, respectively, the diameter of pulleys 90.

However, the spacing between opening 82 and pin 92 and the diameter of pulleys 90, as well as the spacing of pulleys 90 from the cam pivots 56, are chosen to obtain optimum shooting characteristics of the bow. Thus, the spacing between opening 82 and pin 92 is chosen to provide a sufficient length of line segment 98 to achieve optimum stability of nocking point movement and arrow flight, without adversely shifting the broken line 96 (FIG. 10) rearward; the diameter of pulleys 90 is correlated with the spacing between opening 82 and pin 92 to preserve the desired length of line segment 98; and the spacing of pulleys 90 from cam pivots 56 is chosen to avoid mushy or too rapid flexing of the limbs.

From the foregoing it will be appreciated that the present invention provides a compound archery bow construction which maintains balance of both limbs even though they may have somewhat different characteristics of tension and flexure, and which affords independent adjustment of the flexure and tension of each of the pair of limbs. This construction materially reduces the manufacturing cost of the limbs, as previously discussed, and yet affords a much greater degree of precision of adjustment of the bow components, and hence produces greater shooing accuracy than has been attainable heretofore.

It will be apparent to those skilled in the art that various changes may be made in the size, shape, type, number and arrangement of parts described hereinbefore, without departing from the spirit of this invention.

Having now described my invention and the manner in which it may be used, I claim:

1. A compound archery bow, comprising:

a. a handle member,

b. a pair of how limbs projecting from opposite ends of the handle member,

c. a'pair of cam members, each said cam member being mounted on one of said bow limbs and each said cam member being pivoted eccentrically adjacent the outer end of each its associated limb,

d. a bow string for projecting an arrow, said how string spanning between said cam members and being secured intermediate its ends to the pair of cam members and forming an intermediate working stretch therebetween, a pair of opposite end segments of said bow string extending from the cam members,

. a pair of elongated levers mounted pivotally on the bow, each said lever being positioned adjacent the inner end of its associated limb, the outer end of each lever being connected to the end segment of the bow string which is secured to the cam member on the opposite limb, and

f. a pair of tension control cables, each said tension control cable operatively interconnecting each said limb and its associated lever and each said tension control cable being positioned between the bow limb and the connection of the bow string end segment to its associated lever.

2. The archery bow of claim 1 wherein each cam member has a peripheral guide groove for confining the bow string therein, a bore through the cam member receives a portion of the bow string therethrough, and a set screw which removably intercepts said bore for se curing the bow string therein.

3. The archery bow of claim 1 including adjusting means associated with each control cable for adjusting the length thereof and to effect adjustment of the tension of its associated limb.

4. The archery bow of claim 1 including a. a pulley mounted on each limb intermediate the associated cam member and associated lever,

b. a rotary reel for each control cable and mounted on the bow inwardly of the associated pulley,

0. each control cable being secured at one of its ends to its associated lever, then passed around its associated pulley and secured at its opposite end to its associated reel.

5. The archery bow of claim 4 wherein the connection of each bow string end segment to its associated lever is offset laterally from the working stretch of the bow string.

6. The archery bow of claim 1 wherein the connections of the bow string end segments and control cables to each lever are spaced apart a distance predetermined to produce a maximum pull weight which remains substantially constant throughout a predetermined intermediate portion of the draw length.

7. The archery bow of claim 1 wherein the bow string includes a separate working stretch and a pair of separate end segments and one of the adjacent ends of the working stretch and end segments is provided with a flexible loop, said adjacent ends of the working stretch and end segments are connected together detachably by a pair of coupling members each comprising:

a. an elongated, one-piece body,

b. an outwardly projecting connector member adjacent one end of the body for releasable connection of one of said working stretch and end segment, and

c. a pair of lateral projections on the end of the body opposite the connector member,

(1. whereby the flexible loop is engaged behind the projecting connector and the loops spaced strands are lapped behind the lateral projections.

8. In an archery bow having a handle member and a pair of separate limbs extending from the opposite ends of the handle member, means connecting the inner end portion of each limb to the associated end of the handle member for angular adjustment of the limb relative to the handle member, each said means comprising;

a. interengaging bearing means on the outer end of the handle member for engaging the inner end portion of its associated limb,

b. a first pivot shaft mounted on the handle member and extending, said shaft being closely adjacent to the interengaging bearing means,

a first adjustment screw engaging the first pivot shaft and extending perpendicularly therefrom through the interengaging bearing means and its associated limb,

. a second pivot shaft mounted on the handle member inwardly of the first pivot shaft and extending parallel thereto, and

e. a second adjustment screw engaging the second pivot shaft and extending perpendicularly therefrom through its associated limb adjacent the inner end thereof,

f. said second adjustment screw being adjustable longitudinally relative to the second pivot shaft, whereby to pivot the limb on said interengaging bearing means and vary the angular relationship between the limb and handle member.

UNITED STATES PATENT OFFICE- CERTIFICATE OF CORRECTION Patent No. D d October Inventor-(s) LAFAYETTE D. HUNTER It is cer tified that error appears in the abdye-idenrified parent and that said Letters Patent are hereby corrected as shown below:

In the tenth line of the Abstract the word 'ba1a hce" should read produce- Colfimn 1, line 53, insert a comma after "string".

Column 8, line 10, after "extending" insert --therethrough--.

Signed and Sealed this 31st day of December 1.974.

SEAL) Attest: v v

i-ksCOY Ii. GIBSON JR; c. MARSHALL DANN- Attesting Officer Commissioner of Patents FORM po'wso (o-69) uscoMM-oc 6037B-P69 a U- 5. GOVERNMENT PRINTING OFFICE I9 O356-33l, 

1. A compound archery bow, comprising: a. a handle member, b. a pair of bow limbs projecting from opposite ends of the handle member, c. a pair of cam members, each said cam member being mounted on one of said bow limbs and each said cam member being pivoted eccentrically adjacent the outer end of each its associated limb, d. a bow string for projecting an arrow, said bow string spanning between said cam members and being secured intermediate its ends to the pair of cam members and forming an intermediate working stretch therebetween, a pair of opposite end segments of said bow string extending from the cam members, e. a pair of elongated levers mounted pivotally on the bow, each said lever being positioned adjacent the inner end of its associated limb, the outer end of each lever being connected to the end segment of the bow string which is secured to the cam member on the opposite limb, and f. a pair of tension control cables, each said tension control cable operatively interconnecting each said limb and itS associated lever and each said tension control cable being positioned between the bow limb and the connection of the bow string end segment to its associated lever.
 2. The archery bow of claim 1 wherein each cam member has a peripheral guide groove for confining the bow string therein, a bore through the cam member receives a portion of the bow string therethrough, and a set screw which removably intercepts said bore for securing the bow string therein.
 3. The archery bow of claim 1 including adjusting means associated with each control cable for adjusting the length thereof and to effect adjustment of the tension of its associated limb.
 4. The archery bow of claim 1 including a. a pulley mounted on each limb intermediate the associated cam member and associated lever, b. a rotary reel for each control cable and mounted on the bow inwardly of the associated pulley, c. each control cable being secured at one of its ends to its associated lever, then passed around its associated pulley and secured at its opposite end to its associated reel.
 5. The archery bow of claim 4 wherein the connection of each bow string end segment to its associated lever is offset laterally from the working stretch of the bow string.
 6. The archery bow of claim 1 wherein the connections of the bow string end segments and control cables to each lever are spaced apart a distance predetermined to produce a maximum pull weight which remains substantially constant throughout a predetermined intermediate portion of the draw length.
 7. The archery bow of claim 1 wherein the bow string includes a separate working stretch and a pair of separate end segments and one of the adjacent ends of the working stretch and end segments is provided with a flexible loop, said adjacent ends of the working stretch and end segments are connected together detachably by a pair of coupling members each comprising: a. an elongated, one-piece body, b. an outwardly projecting connector member adjacent one end of the body for releasable connection of one of said working stretch and end segment, and c. a pair of lateral projections on the end of the body opposite the connector member, d. whereby the flexible loop is engaged behind the projecting connector and the loop''s spaced strands are lapped behind the lateral projections.
 8. In an archery bow having a handle member and a pair of separate limbs extending from the opposite ends of the handle member, means connecting the inner end portion of each limb to the associated end of the handle member for angular adjustment of the limb relative to the handle member, each said means comprising; a. interengaging bearing means on the outer end of the handle member for engaging the inner end portion of it''s associated limb, b. a first pivot shaft mounted on the handle member and extending, said shaft being closely adjacent to the interengaging bearing means, c. a first adjustment screw engaging the first pivot shaft and extending perpendicularly therefrom through the interengaging bearing means and its associated limb, d. a second pivot shaft mounted on the handle member inwardly of the first pivot shaft and extending parallel thereto, and e. a second adjustment screw engaging the second pivot shaft and extending perpendicularly therefrom through its associated limb adjacent the inner end thereof, f. said second adjustment screw being adjustable longitudinally relative to the second pivot shaft, whereby to pivot the limb on said interengaging bearing means and vary the angular relationship between the limb and handle member. 